#include #include #include #include #include #include #include #include struct param { const char *name; bool is_set; bool required; param_cbx cbx; void *arg; }; static bool param_add(struct param **params, const char *name, bool required, param_cbx cbx, void *arg) { #if DEVELOPER if (!(name && cbx && arg)) return false; #endif struct param *last = tal_arr_expand(params); last->is_set = false; last->name = name; last->required = required; last->cbx = cbx; last->arg = arg; return true; } static bool make_callback(struct command *cmd, struct param *def, const char *buffer, const jsmntok_t *tok) { def->is_set = true; return def->cbx(cmd, def->name, buffer, tok, def->arg); } static bool post_check(struct command *cmd, struct param *params) { struct param *first = params; struct param *last = first + tal_count(params); /* Make sure required params were provided. */ while (first != last && first->required) { if (!first->is_set) { command_fail(cmd, JSONRPC2_INVALID_PARAMS, "missing required parameter: '%s'", first->name); return false; } first++; } return true; } static bool parse_by_position(struct command *cmd, struct param *params, const char *buffer, const jsmntok_t tokens[]) { const jsmntok_t *tok = tokens + 1; const jsmntok_t *end = json_next(tokens); struct param *first = params; struct param *last = first + tal_count(params); while (first != last && tok != end) { if (!json_tok_is_null(buffer, tok)) if (!make_callback(cmd, first, buffer, tok)) return NULL; tok = json_next(tok); first++; } /* check for unexpected trailing params */ if (tok != end) { command_fail(cmd, JSONRPC2_INVALID_PARAMS, "too many parameters:" " got %u, expected %zu", tokens->size, tal_count(params)); return false; } return post_check(cmd, params); } static struct param *find_param(struct param *params, const char *start, size_t n) { struct param *first = params; struct param *last = first + tal_count(params); while (first != last) { if (strncmp(first->name, start, n) == 0) if (strlen(first->name) == n) return first; first++; } return NULL; } static bool parse_by_name(struct command *cmd, struct param *params, const char *buffer, const jsmntok_t tokens[]) { const jsmntok_t *first = tokens + 1; const jsmntok_t *last = json_next(tokens); while (first != last) { struct param *p = find_param(params, buffer + first->start, first->end - first->start); if (!p) { command_fail(cmd, JSONRPC2_INVALID_PARAMS, "unknown parameter: '%.*s'", first->end - first->start, buffer + first->start); return false; } if (p->is_set) { command_fail(cmd, JSONRPC2_INVALID_PARAMS, "duplicate json names: '%s'", p->name); return false; } if (!make_callback(cmd, p, buffer, first + 1)) return false; first = json_next(first + 1); } return post_check(cmd, params); } #if DEVELOPER static int comp_by_name(const struct param *a, const struct param *b, void *unused) { return strcmp(a->name, b->name); } static int comp_by_arg(const struct param *a, const struct param *b, void *unused) { /* size_t could be larger than int: don't turn a 4bn difference into 0 */ if (a->arg > b->arg) return 1; else if (a->arg < b->arg) return -1; return 0; } /* This comparator is a bit different, but works well. * Return 0 if @a is optional and @b is required. Otherwise return 1. */ static int comp_req_order(const struct param *a, const struct param *b, void *unused) { if (!a->required && b->required) return 0; return 1; } /* * Make sure 2 sequential items in @params are not equal (based on * provided comparator). */ static bool check_distinct(struct param *params, int (*compar) (const struct param *a, const struct param *b, void *unused)) { struct param *first = params; struct param *last = first + tal_count(params); first++; while (first != last) { if (compar(first - 1, first, NULL) == 0) return false; first++; } return true; } static bool check_unique(struct param *copy, int (*compar) (const struct param *a, const struct param *b, void *unused)) { asort(copy, tal_count(copy), compar, NULL); return check_distinct(copy, compar); } /* * Verify consistent internal state. */ static bool check_params(struct param *params) { if (tal_count(params) < 2) return true; /* make sure there are no required params following optional */ if (!check_distinct(params, comp_req_order)) return false; /* duplicate so we can sort */ struct param *copy = tal_dup_arr(params, struct param, params, tal_count(params), 0); /* check for repeated names and args */ if (!check_unique(copy, comp_by_name)) return false; if (!check_unique(copy, comp_by_arg)) return false; tal_free(copy); return true; } #endif static char *param_usage(const tal_t *ctx, const struct param *params) { char *usage = tal_strdup(ctx, ""); for (size_t i = 0; i < tal_count(params); i++) { if (i != 0) tal_append_fmt(&usage, " "); if (params[i].required) tal_append_fmt(&usage, "%s", params[i].name); else tal_append_fmt(&usage, "[%s]", params[i].name); } return usage; } static bool param_arr(struct command *cmd, const char *buffer, const jsmntok_t tokens[], struct param *params) { #if DEVELOPER if (!check_params(params)) { command_fail(cmd, PARAM_DEV_ERROR, "developer error: check_params"); return false; } #endif if (tokens->type == JSMN_ARRAY) return parse_by_position(cmd, params, buffer, tokens); else if (tokens->type == JSMN_OBJECT) return parse_by_name(cmd, params, buffer, tokens); command_fail(cmd, JSONRPC2_INVALID_PARAMS, "Expected array or object for params"); return false; } bool param(struct command *cmd, const char *buffer, const jsmntok_t tokens[], ...) { struct param *params = tal_arr(cmd, struct param, 0); const char *name; va_list ap; va_start(ap, tokens); while ((name = va_arg(ap, const char *)) != NULL) { bool required = va_arg(ap, int); param_cbx cbx = va_arg(ap, param_cbx); void *arg = va_arg(ap, void *); if (!param_add(¶ms, name, required, cbx, arg)) { command_fail(cmd, PARAM_DEV_ERROR, "developer error: param_add %s", name); va_end(ap); return false; } } va_end(ap); if (cmd->mode == CMD_USAGE) { cmd->usage = param_usage(cmd, params); return false; } return param_arr(cmd, buffer, tokens, params); }